

    \filetitle{eval}{Evaluate posterior density at specified points}{poster/eval}

	\paragraph{Syntax}\label{syntax}

\begin{verbatim}
[X,L,PP,SrfP,FrfP] = eval(Pos)
[X,L,PP,SrfP,FrfP] = eval(Pos,P)
\end{verbatim}

\paragraph{Input arguments}\label{input-arguments}

\begin{itemize}
\item
  \texttt{Pos} {[} poster {]} - Posterior object returned by the
  \href{model/estimate}{\texttt{model/estimate}} function.
\item
  \texttt{P} {[} struct {]} - Struct with parameter values at which the
  posterior density will be evaluated; if \texttt{P} is not specified,
  the posterior density is evaluated at the point of the estimated mode.
\end{itemize}

\paragraph{Output arguments}\label{output-arguments}

\begin{itemize}
\item
  \texttt{X} {[} numeric {]} - The value of log posterior density
  evaluated at \texttt{P}; N.B. the returned value is log posterior, and
  not minus log posterior.
\item
  \texttt{L} {[} numeric {]} - Contribution of data likelihood to log
  posterior.
\item
  \texttt{PP} {[} numeric {]} - Contribution of parameter priors to log
  posterior.
\item
  \texttt{SrfP} {[} numeric {]} - Contribution of shock response
  function priors to log posterior.
\item
  \texttt{FrfP} {[} numeric {]} - Contribution of frequency response
  function priors to log posterior.
\end{itemize}

\paragraph{Description}\label{description}

The total log posterior consists, in general, of the four contributions
listed above:

\begin{verbatim}
X = L + PP + SrfP + FrfP.
\end{verbatim}

\paragraph{Example}\label{example}


